scholarly article | Q13442814 |
P2093 | author name string | Hideo Tsubouchi | |
Pritam Mukherjee | |||
Neil Humphryes | |||
Amy J Macqueen | |||
Karen Voelkel-Meiman | |||
Louis F Taylor | |||
P2860 | cites work | A direct link between sister chromatid cohesion and chromosome condensation revealed through the analysis of MCD1 in S. cerevisiae | Q24657816 |
SUMO modifications control assembly of synaptonemal complex and polycomplex in meiosis of Saccharomyces cerevisiae | Q24681493 | ||
The meiosis-specific zip4 protein regulates crossover distribution by promoting synaptonemal complex formation together with zip2. | Q27929737 | ||
Budding yeast Pch2, a widely conserved meiotic protein, is involved in the initiation of meiotic recombination. | Q27930826 | ||
The yeast MER2 gene is required for chromosome synapsis and the initiation of meiotic recombination. | Q27931021 | ||
Yeast Pch2 promotes domainal axis organization, timely recombination progression, and arrest of defective recombinosomes during meiosis | Q27931107 | ||
A Role for SUMO in meiotic chromosome synapsis | Q27931422 | ||
A central role for cohesins in sister chromatid cohesion, formation of axial elements, and recombination during yeast meiosis. | Q27931673 | ||
The yeast Red1 protein localizes to the cores of meiotic chromosomes | Q27931793 | ||
Meiotic chromosome morphology and behavior in zip1 mutants of Saccharomyces cerevisiae. | Q27932528 | ||
The Ecm11-Gmc2 complex promotes synaptonemal complex formation through assembly of transverse filaments in budding yeast | Q27932800 | ||
Cohesins: chromosomal proteins that prevent premature separation of sister chromatids | Q27934146 | ||
Zip2, a meiosis-specific protein required for the initiation of chromosome synapsis | Q27934770 | ||
Control of landmark events in meiosis by the CDK Cdc28 and the meiosis-specific kinase Ime2. | Q27934937 | ||
The Saccharomyces cerevisiae gene ECM11 is a positive effector of meiosis | Q27935417 | ||
A Mec1- and PP4-dependent checkpoint couples centromere pairing to meiotic recombination | Q27935744 | ||
A role for Ddc1 in signaling meiotic double-strand breaks at the pachytene checkpoint | Q27936045 | ||
Pch2 acts through Xrs2 and Tel1/ATM to modulate interhomolog bias and checkpoint function during meiosis | Q27936069 | ||
Yeast axial-element protein, Red1, binds SUMO chains to promote meiotic interhomologue recombination and chromosome synapsis | Q27936223 | ||
Organization of the yeast Zip1 protein within the central region of the synaptonemal complex | Q27937024 | ||
Spore enrichment. | Q51718971 | ||
Pch2 links chromatin silencing to meiotic checkpoint control. | Q52177305 | ||
Ecm11 protein of yeast Saccharomyces cerevisiae is regulated by sumoylation during meiosis. | Q53526178 | ||
THE LEPTOTENE-ZYGOTENE TRANSITION OF MEIOSIS | Q56136641 | ||
Localization of the N-terminus of SCP1 to the central element of the synaptonemal complex and evidence for direct interactions between the N-termini of SCP1 molecules organized head-to-head | Q71139351 | ||
Crossover interference is abolished in the absence of a synaptonemal complex protein | Q72790781 | ||
Ubc9 sumoylation controls SUMO chain formation and meiotic synapsis in Saccharomyces cerevisiae | Q86714300 | ||
Zip3 provides a link between recombination enzymes and synaptonemal complex proteins | Q27939710 | ||
Three new dominant drug resistance cassettes for gene disruption in Saccharomyces cerevisiae | Q28131610 | ||
Mutation of the mouse Syce1 gene disrupts synapsis and suggests a link between synaptonemal complex structural components and DNA repair | Q28474807 | ||
A novel mouse synaptonemal complex protein is essential for loading of central element proteins, recombination, and fertility | Q28513683 | ||
Characterization of a novel meiosis-specific protein within the central element of the synaptonemal complex | Q28569784 | ||
Organization of SCP1 protein molecules within synaptonemal complexes of the rat | Q28574832 | ||
ZIP1 is a synaptonemal complex protein required for meiotic chromosome synapsis | Q29618281 | ||
Meiotic chromosomes: integrating structure and function | Q29618524 | ||
In vivo analysis of synaptonemal complex formation during yeast meiosis | Q31067627 | ||
The Analysis of Tetrad Data | Q31095632 | ||
Corona is required for higher-order assembly of transverse filaments into full-length synaptonemal complex in Drosophila oocytes | Q33370539 | ||
The synaptonemal complex protein, Zip1, promotes the segregation of nonexchange chromosomes at meiosis I. | Q33640114 | ||
Juxtaposition of C(2)M and the transverse filament protein C(3)G within the central region of Drosophila synaptonemal complex. | Q33934493 | ||
Synaptonemal complex formation and meiotic checkpoint signaling are linked to the lateral element protein Red1. | Q33953047 | ||
Biochemical Mutants in the Smut Fungus Ustilago Maydis. | Q33975198 | ||
Full-length synaptonemal complex grows continuously during meiotic prophase in budding yeast | Q34446659 | ||
Mps1p regulates meiotic spindle pole body duplication in addition to having novel roles during sporulation | Q34768220 | ||
The Aurora kinase Ipl1 is necessary for spindle pole body cohesion during budding yeast meiosis | Q35193585 | ||
Prelude to a division | Q35619405 | ||
A novel nonnull ZIP1 allele triggers meiotic arrest with synapsed chromosomes in Saccharomyces cerevisiae | Q35846335 | ||
The genetics and molecular biology of the synaptonemal complex. | Q35912834 | ||
SYCE2 is required for synaptonemal complex assembly, double strand break repair, and homologous recombination | Q36117975 | ||
Structural analysis of the human SYCE2-TEX12 complex provides molecular insights into synaptonemal complex assembly | Q36137657 | ||
Spindles, spindle plaques, and meiosis in the yeast Saccharomyces cerevisiae (Hansen) | Q36192816 | ||
The structure of the central region in the synaptonemal complexes of hamster and cricket spermatocytes | Q36194542 | ||
Zip1-induced changes in synaptonemal complex structure and polycomplex assembly | Q36382459 | ||
The formation of the central element of the synaptonemal complex may occur by multiple mechanisms: the roles of the N- and C-terminal domains of the Drosophila C(3)G protein in mediating synapsis and recombination | Q36416168 | ||
SUMO-mediated regulation of synaptonemal complex formation during meiosis | Q36554281 | ||
SUMO meets meiosis: an encounter at the synaptonemal complex: SUMO chains and sumoylated proteins suggest that heterogeneous and complex interactions lie at the centre of the synaptonemal complex | Q37876819 | ||
Two distinct surveillance mechanisms monitor meiotic chromosome metabolism in budding yeast | Q42775595 | ||
P275 | copyright license | Creative Commons Attribution 4.0 International | Q20007257 |
P6216 | copyright status | copyrighted | Q50423863 |
P433 | issue | 10 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | synaptonemal complex | Q2064069 |
Zip1p YDR285W | Q27550522 | ||
Ecm11p YDR446W | Q27552125 | ||
P304 | page(s) | e1003837 | |
P577 | publication date | 2013-01-01 | |
P1433 | published in | PLOS Genetics | Q1893441 |
P1476 | title | SUMO localizes to the central element of synaptonemal complex and is required for the full synapsis of meiotic chromosomes in budding yeast | |
P478 | volume | 9 |
Q52361832 | A compartmentalized signaling network mediates crossover control in meiosis. |
Q38871962 | Analysis of Meiotic Chromosome-Associated Protein Dynamics Using Conditional Expression in Budding Yeast |
Q35812251 | Centromere pairing--tethering partner chromosomes in meiosis I. |
Q37656154 | Control of Meiotic Crossovers: From Double-Strand Break Formation to Designation. |
Q92901769 | Crossover recombination and synapsis are linked by adjacent regions within the N terminus of the Zip1 synaptonemal complex protein |
Q36333328 | Depletion of UBC9 Causes Nuclear Defects during the Vegetative and Sexual Life Cycles in Tetrahymena thermophila |
Q33671794 | E3 ligase Hei10: a multifaceted structure-based signaling molecule with roles within and beyond meiosis |
Q48149888 | Fundamental cell cycle kinases collaborate to ensure timely destruction of the synaptonemal complex during meiosis |
Q58696735 | HO Endonuclease-Initiated Recombination in Yeast Meiosis Fails To Promote Homologous Centromere Pairing and Is Not Constrained To Utilize the Dmc1 Recombinase |
Q52374566 | Mitotic and Meiotic Functions for the SUMOylation Pathway in the Caenorhabditis elegans Germline. |
Q39155608 | Prophase I: Preparing Chromosomes for Segregation in the Developing Oocyte |
Q28262099 | Recombination, Pairing, and Synapsis of Homologs during Meiosis |
Q41327161 | Reduced dosage of the chromosome axis factor Red1 selectively disrupts the meiotic recombination checkpoint in Saccharomyces cerevisiae |
Q90044520 | Regulated Proteolysis of MutSγ Controls Meiotic Crossing Over |
Q38824610 | Regulating the construction and demolition of the synaptonemal complex. |
Q35232350 | Selection on meiosis genes in diploid and tetraploid Arabidopsis arenosa |
Q35675416 | Separable Crossover-Promoting and Crossover-Constraining Aspects of Zip1 Activity during Budding Yeast Meiosis |
Q38650800 | Superresolution expansion microscopy reveals the three-dimensional organization of the Drosophila synaptonemal complex. |
Q27932072 | Synaptonemal Complex Proteins of Budding Yeast Define Reciprocal Roles in MutSγ-Mediated Crossover Formation |
Q30368429 | The CSN/COP9 signalosome regulates synaptonemal complex assembly during meiotic prophase I of Caenorhabditis elegans. |
Q41117313 | The Pch2 AAA+ ATPase promotes phosphorylation of the Hop1 meiotic checkpoint adaptor in response to synaptonemal complex defects |
Q38738534 | The proteasome enters the meiotic prophase fray |
Q36310576 | The synaptonemal complex is assembled by a polySUMOylation-driven feedback mechanism in yeast |
Q47241927 | Zipping and Unzipping: Protein Modifications Regulating Synaptonemal Complex Dynamics |
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